A = F/M = 50/10 = 5 meters per second2
Using Newton's second law (F = ma), we can rearrange the formula to solve for mass: mass = force / acceleration. Plugging in the values, mass = 10 N / 50 m/s^2 = 0.2 kg. Therefore, the mass of the hockey puck is 0.2 kg.
Acceleration = Force/mass: 10N/50kg = 0.2 meters per second squared.
0.2 Kg or 200 grams
The mass of the hockey puck cannot be determined from the information provided. Acceleration depends on the force applied and the mass of the object, but without knowing the force, we cannot calculate the mass.
Newton's first law is a object at rest will stay at rest unless acted on by a outside force so when you hit the puck with the stick the stick is the outside force and the puck moves
When a hockey puck is frozen, it becomes harder and less elastic, which reduces its ability to compress upon impact. This lack of compression results in less energy being absorbed from the impact, causing the puck to bounce less.
Hockey stick
No, a hockey stick is not considered a machine as it does not involve complex mechanical components that allow it to perform work. It is a simple tool or implement used to play the sport of hockey.
It accelerates
F = ma. The math could not be more straightforward. You have F and you have a, so just solve for m.
It accelerates
It accelerates
The mass of the hockey puck cannot be determined from the information provided. Acceleration depends on the force applied and the mass of the object, but without knowing the force, we cannot calculate the mass.
Metres squared
When a hockey puck is frozen, it becomes harder and less elastic, which reduces its ability to compress upon impact. This lack of compression results in less energy being absorbed from the impact, causing the puck to bounce less.
All the three Newtons laws of motion is applicable in the game of hockey. The ball stays where it is unless it is hit and given a force. The acceleration in the ball is proportional to the force given to it through the stick by the player. The ball when rebounds on the goal post is as per the third law of motion. As the stick, the ball and the post are rigid materials there is not much loss due to absorption.
your mom squared
Newton's first law is a object at rest will stay at rest unless acted on by a outside force so when you hit the puck with the stick the stick is the outside force and the puck moves
Numbers are important.F = ma. So multiply the acceleration in meters per second (per second, which you appear to have left out) by the mass in kilograms and that will give you the force in newtons.
a puck